Klaus Stoppel scite author profile

Klaus Stoppel

3Publications

7Citation Statements Received

45Citation Statements Given

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Affiliations

Robert Bosch (Taiwan), University of Maryland, College Park, Robert Bosch (Germany)

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Generating sacrificial multi-piece molds using accessibility driven spatial partitioning

Huang

Gupta

Stoppel

2003

Computer-Aided Design

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This paper describes an algorithm based on accessibility-driven partitioning approach to automate the design of sacrificial multi-piece molds. Sacrificial multi-piece molds are used for producing geometrically complex gelcast ceramic parts. The algorithm presented in this paper analyzes the accessibility of the gross mold shape and partitions it using accessibility information. Each partitioning step improves accessibility of decomposed mold pieces. By performing successive decomposition, this algorithm finally produces a set of mold components that are accessible and therefore can be manufactured using milling and drilling operations. Using the algorithm presented in this paper, mold design steps can be significantly automated for making geometrically complex parts and facilitating the creation of physical part from the CAD model in a matter of hours.

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Passively Q-switched 914 nm microchip laser for lidar systems

2021

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Passively Q-switched microchip lasers enable great potential for sophisticated lidar systems due to their compact overall system design, excellent beam quality, and scalable pulse energies. However, many near-infrared solid-state lasers operate at >1000 nm which are not compatible with state-of-the-art silicon detectors. Here we demonstrate a passively Q-switched microchip laser operating at 914 nm. The microchip laser consists of a 3 mm long Nd3+:YVO4 crystal as a gain medium while Cr4+:YAG with an initial transmission of 98% is used as a saturable absorber. Quasi-continuous pumping enables single pulse operation and low duty cycles ensure low overall heat generation and power consumption. Thus, thermally induced instabilities are minimized and operation without active cooling is possible while ambient temperature changes are compensated by adjustment of the pump laser current only. Single-emitter diode pumping at 808 nm leads to a compact overall system design and robust setup. Utilization of a microchip cavity approach ensures single-longitudinal mode operation with spectral bandwidths in the picometer regime and results in short laser pulses with pulse durations below 10 ns. Furthermore, beam quality measurements show that the laser beam is nearly diffraction-limited. A 7% output coupler transmittivity is used to generate pulses with energies in the microjoule regime and peak powers of more than 600 W. Long-term pulse duration, pulse energy, and spectral wavelength measurements emphasize excellent system stability and facilitate the utilization of this laser in the context of a lidar system.

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Passively Q-switched Nd:YVO4 laser operating at 914 nm

Naegele

Stoppel

Ridderbusch

et al. 2020

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A diode-pumped passively Q-switched Nd:YVO 4 laser operating at 914 nm is demonstrated. The solid-state laser is quasi-continuously pumped at 808 nm using a 35 W fiber-coupled diode laser. Several Cr 4+ :YAG saturable absorbers with different outcoupling coefficients are utilized to optimize the overall system performance. The simple two component cavity design reduces the system complexity and enables efficient pump power conversion along with long-term stability concerning power and wavelength. Furthermore, temperature dependent stimulated-emission cross-section in the Q-switched regime is investigated by observing the evolution of the single pulse energy over a temperature range of 70 K.

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Klaus Stoppel

Generating sacrificial multi-piece molds using accessibility driven spatial partitioning

Passively Q-switched 914 nm microchip laser for lidar systems

Passively Q-switched Nd:YVO4 laser operating at 914 nm

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